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EP 1 079 200 B1 |
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FASCICULE DE BREVET EUROPEEN |
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Mention de la délivrance du brevet: |
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13.10.2004 Bulletin 2004/42 |
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Date de dépôt: 23.08.2000 |
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Dispositif pyrotechnique de connexion et de retard
Pyrotechnisches Verbindungs- und Verzögerungselement
Pyrotechnic device for connection and delay
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Etats contractants désignés: |
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AT BE CH CY DE DK ES FI FR GB GR IE IT LI LU MC NL PT SE |
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Priorité: |
24.08.1999 FR 9910880
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Date de publication de la demande: |
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28.02.2001 Bulletin 2001/09 |
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Titulaire: Ambrico, Francesco |
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38160 Saint Marcellin (FR) |
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Inventeur: |
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- Ambrico, Francesco
38160 Saint Marcellin (FR)
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(74) |
Mandataire: de Beaumont, Michel |
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1, rue Champollion 38000 Grenoble 38000 Grenoble (FR) |
(56) |
Documents cités: :
DE-A- 19 514 122 US-A- 2 548 946
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FR-A- 353 200 US-A- 4 166 418
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Il est rappelé que: Dans un délai de neuf mois à compter de la date de publication
de la mention de la délivrance de brevet européen, toute personne peut faire opposition
au brevet européen délivré, auprès de l'Office européen des brevets. L'opposition
doit être formée par écrit et motivée. Elle n'est réputée formée qu'après paiement
de la taxe d'opposition. (Art. 99(1) Convention sur le brevet européen). |
Field of the Invention
[0001] The present invention relates to a paint wagon for carrying a plurality of components
to be painted through a painting facility. In particular, this invention relates to
an expandable paint wagon which can be easily expanded and contracted at desired locations.
Background of the Invention
[0002] Paint wagons are commonly used to carry exterior components of motor vehicles through
a paint facility. United States Patent no. 5,772,233 describes a typical paint wagon
used for two tone fascias corresponding to the preamble of claim 1. The paint wagon
contracts prior to entry into the paint facility so that one fascia will partially
shroud a next adjacent fascia. After painting, the wagon expands to allow removal
of the fascia from the wagon.
[0003] More commonly, paint wagons are not expandable and have mounting fixtures which are
rigidly mounted to the wagon. These wagons are used primarily because they are easy
to build and have no moving parts which can foul with each trip through the paint
facility. However, fixed mount paint wagons limit the throughput of the paint facility
since each wagon requires a minimum of space along the conveyor to allow the wagons
to run comers. In many cases, the fascia must be spaced apart to allow the painting
robot to fit between the parts and to allow the mounting and removal of the fascia
onto and from the paint wagon. At other times, the non-expandable wagons take up valuable
space along the conveyor system.
[0004] The expandable wagon as described in United States patent no. 5,772,233 could easily
be modified to expand prior to entry into the paint facility and contract after and
at other desired locations. However, the prior art expandable wagons require contact
with a fixed rigid structure to expand and contract. Usually, a pole is mounted on
the floor adjacent the travel of the paint wagons to effect the movement of the paint
wagon. Although a number of poles could be installed about the conveyor, these poles
would present safety problems. Further, the greater number of poles may interfere
with other fixtures mounted on the paint wagons. Other fixtures are utilized when
parts other than fascia are required to be painted. Thus, the addition of poles is
not a safe and economical solution to modifying paint wagon length.
Summary of the Invention
[0005] The disadvantages of the prior art may be overcome by providing an expandable paint
wagon having a simple actuating mechanism which can be triggered by a low profile
mechanism.
[0006] According to one aspect of the invention, there is provided a paint wagon which has
a base having a plurality of wheels mounted in supporting relation thereto. A drop
pin is slidably mounted to the base. The drop pin selectively engages with a conveyor
for translating the paint wagon along a path. A plurality of slidably mounted mounting
fixtures is movable between a contracted position and an expanded position. An actuating
assembly slidably mounts the mounting fixtures to the base. The actuating assembly
has a longitudinal support and a plurality of cars in sliding engagement with the
longitudinal support. The mounting fixtures extend from the plurality of cars. A rotatably
mounted pinion drivingly engages a rack which is slidably mounted with the longitudinal
support. The rack is connected to an outer car. The rack has a plurality of tabs extending
therefrom positioned to selectively engage inner cars to move the inner cars and automatically
space the cars. An actuating mechanism is mounted on the path. The actuating assembly
selectively engages the actuating mechanism as the paint wagon travels along the path
to effect rotation of the pinion and responsively effect the movement of the mounting
fixtures between the contracted and expanded positions.
Brief Description of the Drawings
[0007] A preferred embodiment of the invention will now be described, by way of example
only, with reference to the attached Figures, in which:
Figure 1 is a perspective view of a paint wagon with actuating mechanism of the present
invention;
Figure 2 is a perspective view of the paint wagon and actuating mechanism of Figure
1;
Figure 3 is a partial sectional view of the actuating assembly of the paint wagon
of Figure 1;
Figure 4 is a partial perspective view of the actuating assembly of the paint wagon
of Figure 1;
Figure 5 is a partial perspective view of the actuating assembly of the paint wagon
of Figure 1;
Figure 6 is a partial perspective view of the locking mechanism of the actuating assembly
of the paint wagon of Figure 1;
Figure 7 is a perspective view of the actuating mechanism of the paint wagon of Figure
1;
Figure 8 is a top plan view of the actuating mechanism of Figure 7 in an engaged position;
Figure 9 is a top plan view of the actuating mechanism of Figure 7 in a disengaged
position;
Figure 10 is a side schematic view of the actuating assembly of the paint wagon of
Figure 1, moving to an expanded position; and
Figure 11 is a side schematic view of the actuating assembly of the paint wagon of
Figure 1, moving to a contracted position.
Detailed Description of the Preferred Embodiment
[0008] Referring to Figure 1, an expandable paint wagon 10 of the present invention is shown.
The paint wagon 10 travels along a conveyor 12 in the direction indicated at 14. The
conveyor 12 is conventionally mounted below floor 16 and accessed through a slot 18.
[0009] An actuating mechanism 20 is mounted on the floor 16 adjacent to the slot 18. Actuating
mechanism 20 is generally elongate and extends in the same general direction as the
slot 18.
[0010] Referring to Figure 2, the paint wagon 10 is illustrated in greater detail. The paint
wagon 10 generally comprises a base frame 22, an actuating assembly 24 and a fixture
mounting assembly 26. Actuating assembly 24 is mounted on the base frame 22. Fixture
mounting assembly 26 is operably mounted on the actuating assembly 24 for responsive
movement between an expanded condition (Figure 2) and a contracted condition (Figure
1).
[0011] Base frame 22 is preferably an H-shaped frame having wheel assemblies 28, 30 suitably
mounted at each of the four legs of the H-shaped frame to support the paint wagon
10. Preferably wheel assemblies 28 are caster wheels which allows the paint wagon
10 to be guided along and steered.
[0012] A drop pin 32 is slidably mounted at the front of the frame 22. The drop pin 32 extends
downwardly to engage a socket 34 on the conveyor chain 12. When engaged with the conveyor
chain 12, the drop pin 32 provides a driving engagement to the paint wagon 10 to translate
the paint wagon 10 along floor 16. The drop pin 32 is lifted to disengage the paint
wagon 10 from the conveyor chain 12.
[0013] Referring to Figures 3 and 4, the actuating assembly 24 comprises an elongated C-shaped
longitudinal support 38 having closed ends 40. Longitudinal support 38 is mounted
on spacers 36. An elongate channel 42 extends longitudinally along one side of the
longitudinal support 38. The upper edge 44 and the lower edge 46 of the channel 42
define guides. A fixed plate 48 is welded to the longitudinal support 38 across the
open channel 42. Stationary mounting arm 50 extends from plate 48.
[0014] Inner cars 52, middle cars 54 and end cars 56 are mounted on the upper and lower
guides 44, 46 for sliding movement outwardly and inwardly relative to fixed plate
48.
[0015] Actuating assembly 24 is symmetrical about a diagonal across plate 48 and therefore
only one side will be described in detail.
[0016] Each of the cars 52, 54, 56 has a mounting plate 58 on which rollers 60 are rotatably
mounted. Preferably, four rollers 60 are spaced about one face of mounting plate 58
so that the rollers engage guides 44, 46. The rollers 60 mount the cars 52, 54, 56
for guided travel along the actuating assembly. A mounting arm 62 extends outwardly
from the mounting plate 58. Cars 52, 54, 56 are identical except that inner cars 52
have a tab 64 projecting from the leading edge when the cars are moving in an expanding
direction and middle cars 54 have a tab 66 projecting from trailing edge when the
cars are moving in an expanding direction. Middle cars 54 and outer cars 56 each has
a spacer bar 68 extending from the leading edge when the cars are moving in a contracting
direction.
[0017] Actuating assembly 24 further comprises a pinion 70 mounting on a drive shaft 72.
Bevel gear 74 is also mounted on the drive shaft 72 on an end opposite pinion 70.
Bevel gear 74 drivingly engages a matching bevel gear 76 which is mounted on a vertically
extending shaft 78. Bearings 80, 82 are provided to journal mount shafts 72, 78, respectively.
[0018] Racks 84, 86 are slidably mounted within longitudinal support 38. The distal end
of each rack 84, 86 is affixed to the outer cars 56. Racks 84, 86 each has a set of
teeth 88 along a near end thereof for engaging with pinion 70. Racks 84, 86 extend
in opposite directions on opposite sides of the pinion 70. Rotation of pinion 70 in
a first sense will move both racks 84, 86 outwardly in an expanding direction and
rotation in the opposite sense will move both racks 84, 86 inwardly in a contracting
direction.
[0019] Racks 84, 86 each has an inner tab 90 and a middle tab 92 (See Figures 10, 11). Middle
tab 92 extends is a direction orthogonal from inner tab 90. Tabs 90, 92 are spaced
at a distance to provide a desired separation between parts to be painted. Inner tab
90 will contact tab 64 on inner cars 52 when the racks 84, 86 are moving in the expanding
direction and urge the inner cars 52 in the expanding direction. Middle tab 92 will
contact tab 66 on middle cars 54 when the racks 84, 86 are moving in the expanding
direction and urge the middle cars 54 in the expanding direction. Middle tab 92 and
inner tab 90 are orthogonal so that the racks 84, 86 will only engage the middle cars
56 and the inner cars 52, respectively, during expanding movement and not during contracting
movement.
[0020] Referring to Figures 5 and 6, the lower end of shaft 78 has a spur gear 94. Mounted
in front of and parallel to shaft 78 is a lock shaft 96. Lock shaft 96 has a floor
engaging roller 98 at the lower end and a section of a bevel gear 100 at the upper
end. A spring 102 mounts between the housing 104 and the lock shaft 96 to bias the
lock shaft to the down or lock position. Lock shaft 96 has a key 106 which prevent
rotation of the lock shaft and limits movement to the vertical direction. In the lock
position, bevel gear 100 engages bevel gear 76 to prevent rotation thereof.
[0021] Referring to Figure 7, the floor mounted actuating mechanism 20 is illustrated in
greater detail. The cover 108 has been removed to show the inner detail. Bar 110 is
pivotally mounted on cover 18 near the leading edge thereof. Bar 110 has a ramp 109
and an elevated surface 107 for receiving roller 98 of lock shaft 96 and urging the
lock shaft 96 upwardly to the raised position and to unlock the actuating assembly
24. Bar 110 has a spring 111 extending between the trailing end and the cover 108.
A shock absorber 113 also extends from the trailing end and the cover 108. The spring
111 and shock absorber 113 control the pivotal movement of the bar 110.
[0022] A sleeve 112 is slidably mounted on bar 110 for travel in the direction of travel
14. A spring 114 extends between the sleeve 112 and bar 110 and urges the sleeve towards
the leading edge of the cover 108. A shock absorber 116 is pivotally mounted at one
end to the sleeve 112 and pivotally mounted at the opposite end to the cover 108.
Sleeve 114 has an abutment 118 at the trailing end thereof. Sleeve 112 has an L-shaped
flange 120 having a rack of teeth 122 which are complementary to and operatively engage
the bevel gear 94. The leading edge of the rack of teeth 122 is slightly tapered to
allow smooth engagement between the teeth 122 and bevel gear 94.
[0023] Cover 108 has a stop 124 positioned near the trailing end of the cover 108. Bar 110
will rest against the stop 124 under the influence of spring 111. Stop 124 will also
engage abutment 118 of sleeve 112 as the sleeve 112 is moved towards the trailing
end which will cause the sleeve 112 and the rack of teeth 122 to pivot outwardly to
disengage the rack of teeth 122 from the bevel gear 94.
[0024] Cover 108 is firmly attached to the floor 16, adjacent the slot 18. Cover 108 is
generally a C-shaped extrusion having an open channel facing upwardly and extending
in the direction of travel. The leading edge of the slot is preferably tapered to
receive lock shaft 96.
[0025] Referring back to Figure 2, the fixture mounting assembly 26 comprises a plurality
of U-shaped supports 126. Each of the supports 126 are mounted on one of the fixed
arm 50 or movable arms 62. In the preferred embodiment, the paint wagon has seven
mounting fixtures, six movable fixtures and one stationary fixture. It is apparent
to those skilled in the art that any number of fixtures could be accommodated.
[0026] Housing 104 shrouds the gear or operating components of the paint wagon 10 from paint
over spray. Preferably, cars 52, 54 and 56 are made from stainless steel in order
to minimize damage from the paint and the requisite cleaning solvents needed to clean
and remove over sprayed paint. The preferred shape of mounting arms 62 is as illustrated
in Figure 2. The shape allows a further shroud to be placed over the channel 42 further
minimizing the risk of paint being applied to the cars 52, 54 and 56.
[0027] In operation, the paint wagon 10 of the present invention is selectively engaged
to the conveyor 12. The paint wagon 10 will be pulled about in the direction of travel
14. In this condition, the lock shaft 96 will be in the down or locked position, holding
the fixture mounting assembly 26 in place in the contracted condition. The paint wagon
10 will encounter one of a desired number of actuating mechanisms 20.
[0028] Referring to Figure 5, the roller 98 will engage the ramp 109 which will lift the
lock shaft 96 upwardly, disengaging the bevel gear 94 of the actuating assembly 24.
As the paint wagon 10 travels along, spur gear 94 will engage rack of teeth 122 which
will cause rotation thereof in an expanding sense. Rotation of spur gear 94 will in
turn rotate pinion 70, which in turn will cause outwardly movement of the racks 84,
86.
[0029] Referring to Figures 10 and 11, the outward movement of the racks 84, 86 will cause
direct movement of the outer cars 56, since racks 84, 86 is directly connected to
one of the outer cars 56. Inner tab 90 and middle tab 92 will contact tabs 64 and
66, respectively, to move cars 52, 54 to each respective expanded position.
[0030] Referring to Figures 7, 8 and 9, the disengagement of the actuating mechanism 24
is illustrated. Once the paint wagon 10 has reached the expanded position, the racks
84, 86 will stop moving. This will cause pinion 70 to stop rotating and in turn stop
spur gear 94 from rotating. If the spur gear 94 has not disengaged from the rack of
teeth 122, the spur gear 94 will cause the rack of teeth 122 and sleeve 112 to slide
along the bar 110 until abutment 118 engages stop 124. Engagement of the abutment
118 with stop 124 will cause bar 110 and the sleeve 112 to pivot outwardly to cause
the rack of teeth 122 to disengage from the spur gear 94. Once the spur gear 94 has
traveled beyond the rack of teeth 122, the spring 111 will return the bar 110 and
sleeve 112 back to a ready position in parallel to the direction of travel 14. Once
the paint wagon 10 has traveled beyond the bar 110, the lock shaft 96 will fall off
the trailing edge of the bar 110 allowing the lock shaft to move downwardly to the
lowered position to re-engage the bevel gear 100 with the bevel gear 76, locking the
actuating assembly 24 in place.
[0031] To contract the paint wagon 10, an actuating mechanism 20 is mounted on the floor
16. The contracting actuating mechanism 20 is a mirror image of the mechanism shown
in the Figures 7, 8, and 9. The rack of teeth 122 will be on the opposite side of
the bar 110 and will rotation of the spur gear 94 in a contracting sense opposite
the expanding sense.
[0032] Rotation of the spur gear 94 in the contracting sense will cause rotation of the
pinion 70 in the contracting sense. Pinion 70 will cause racks 84, 86 to move inwardly.
Racks 84, 86, will move the outer cars 56 inwardly which will urge middle cars 54
inwardly and then inner cars 52 inwardly to the contracted position. Bars 68 will
space the outer cars 56 from the middle cars 54 from the inner cars 52. By selecting
the length of bars 68, a minimum spacing between supports 126 is determined.
[0033] As is apparent, any number of actuating mechanisms 20 can be placed about the length
of the conveyor 12 to expand and contract the paint wagon 10 as desired. Preferably,
the paint wagons 10 are contracted to turn comers and expanded for painting, mounting
and dismounting parts to be painted onto and from the paint wagon 10. The actuating
mechanisms 20 have a low profile minimizing risk of contact by fork lift trucks and
workers. Additionally, actuating mechanisms 20 are mounted directly under the path
of travel of the paint wagons 10 and therefore not in an area normally accessed by
workers.
[0034] While presently preferred embodiments of the present invention are described herein,
variations and modifications will occur to those skilled in the art and should not
be considered as departing from the scope of the invention as defined by the appended
claims. floor 16. The contracting actuating mechanism 20 is a mirror image of the
mechanism shown in the Figures 7, 8, and 9. The rack of teeth 122 will be on the opposite
side of the bar 110 and will rotation of the spur gear 94 in a contracting sense opposite
the expanding sense.
[0035] Rotation of the spur gear 94 in the contracting sense will cause rotation of the
pinion 70 in the contracting sense. Pinion 70 will cause racks 84, 86 to move inwardly.
Racks 84, 86, will move the outer cars 56 inwardly which will urge middle cars 54
inwardly and then inner cars 52 inwardly to the contracted position. Bars 68 will
space the outer cars 56 from the middle cars 54 from the inner cars 52. By selecting
the length of bars 68, a minimum spacing between supports 126 is determined.
[0036] As is apparent, any number of actuating mechanisms 20 can be placed about the length
of the conveyor 12 to expand and contract the paint wagon 10 as desired. Preferably,
the paint wagons 10 are contracted to turn comers and expanded for painting, mounting
and dismounting parts to be painted onto and from the paint wagon 10. The actuating
mechanisms 20 have a low profile minimizing risk of contact by fork lift trucks and
workers. Additionally, actuating mechanisms 20 are mounted directly under the path
of travel of the paint wagons 10 and therefore not in an area normally accessed by
workers.
[0037] While presently preferred embodiments of the present invention are described herein,
variations and modifications will occur to those skilled in the art and should not
be considered as departing from the scope of the invention as defined by the appended
claims.
1. A paint wagon (10) comprising:
a base (22) having a plurality of wheels (28,30) mounted in supporting relation thereto;
a drop pin (32) slidably mounted to said base (22), said drop pin (32) selectively
engagable with a conveyor (12) for translating said paint wagon (10) along a path;
characterized by a plurality of slidably mounted mounting fixtures (26), said fixtures (26) movable
between a contracted position and an expanded position, an actuating assembly (24)
slidably mounting said mounting fixtures (26) to said base (22), said actuating assembly
(24) comprising:
a longitudinal support (38) mounted to said base (22),
a plurality of cars (52, 54, 56) in sliding engagement with said longitudinal support
(38), said plurality of cars (52, 54, 56) each having one of said mounting fixture
(26) extending therefrom,
a rotatably mounted pinion (70),
a first rack (84) slidably mounted with said longitudinal support (38), said pinion
(70) in driving engagement with said first rack (84), said first rack (84) connected
to an outer one of said cars (52,54,56), said first rack (84) having a plurality of
tabs (90,92) extending therefrom positioned to selectively engage inner ones of said
cars (52, 54, 56) to move said inner ones outwardly and automatically space said cars
(52, 54, 56), wherein rotation of said pinion (70) effects said movement of said mounting
fixtures (26) between the contracted and expanded positions.
2. A paint wagon (10) as claimed in claim 1 wherein each of said cars (52,54,56) has
a bar positioned to space said plurality of cars (52, 54, 56) from an adjacent car
upon moving said mounting fixtures (26) to said contracted position.
3. A paint wagon (10) as claimed in claim 2 wherein said paint wagon (10) further comprises
a second rack (86) slidably mounted with said longitudinal support (38), said pinion
(70) in driving engagement with said second rack (86), said second rack (86) connected
to an outer one of said cars (52,54,56), said second rack (86) having an plurality
of tabs extending therefrom positioned to selectively engage inner ones of said cars
(52, 54, 56) to move said inner ones outwardly and automatically space said cars (52,
54, 56) when moving to the expanded condition.
4. A paint wagon (10) as claimed in claim 3 wherein said second racks (86) extends in
a direction opposite to said first rack (84).
5. A paint wagon (10) as claimed in claim 4 wherein said paint wagon (10) has a fixed
mounting fixture (26) positioned between mounting fixtures (26) operatively engaging
said first rack (84) and mounting fixtures (26) operatively engaging said second
rack (86).
6. A paint wagon as claimed in claim 5 wherein said actuating assembly further comprises
a downwardly extending shaft (78) having a gear (94) mounted thereon, said shaft (78)
operatively engaging said pinion (70), said gear (94) positioned to engage a complementary
rack of teeth fixed relative to said paint wagon (10) such that as said paint wagon
(10) translates along said path said gear (94) rotates effecting rotation of said
pinion (70).
7. A paint wagon (10) as claimed in claim 6 wherein said actuating assembly further comprises
a lock shaft (96) slidable mounted in front of said shaft (78), said shaft movable
between a lowered position and a raised position, said lock shaft (96) engaging said
shaft (78) preventing rotation thereof when said lock shaft (96) is in said lowered
position and said lock shaft (96) disengaging from said shaft (78) when said lock
shaft (96) is in said raised position.
8. A paint wagon (10) as claimed in claim 7 wherein said paint wagon (10) has a housing
(104) to shroud operative components of said paint wagon (10) from paint spray.
9. A paint wagon (10) as claimed in claim 8 wherein said longitudinal support (38) is
a C-shaped section having an elongated open channel defining upper and lower guides,
and each of said cars has a plurality of rotatably mounted wheels (28, 30) engaging
said upper and lower guides.
10. A paint wagon (10) as claimed in claim 9 wherein said paint wagon (10) has at least
three cars and said inner ones of said cars comprise an inner car and a middle car
positioned between said outer one of said cars (52, 54, 56) and said inner car, said
inner car having a tab on a leading edge when said inner car is moving in an expanding
direction, said inner car tab engaging one of said plurality of tabs on a respective
rack and said middle car having a tab on a trailing edge when said middle car is moving
in an expanding direction, said middle car tab engaging another of said plurality
of tab on a respective rack.
11. A paint wagon (10) as claimed in claim 10 wherein said plurality of tabs on said rack
project orthogonally therefrom.
12. A paint wagon (10) as claimed in any preceding claim, in combination with an actuating
mechanism mounted along said path, said actuating assembly selectively engaging said
actuating mechanism as said paint wagon travels along said path responsively effecting
rotation of said pinion (10) and to effect said movement of said mounting fixtures
between the contracted and expanded positions.
13. A combination as claimed in claim 12 wherein said actuating mechanism (20) comprises:
a housing having an upwardly extending slot for receiving said drop pin as said paint
wagon (10) travels past said actuating mechanism,
a pivotally mounting bar presenting a ramp and an elevated surface effecting movement
of said lock shaft between said lowered and raised positions,
a stop, and
said rack of teeth (122) slidably mounted to cooperate with said bar, said rack of
teeth (122) biased to a leading edge of said actuating mechanism (20), said bar biased
to urge said rack of teeth (122) into engagement with said gear (94), said rack of
teeth (122) slideable relative to said bar when said gear (94) stops rotating until
said rack of teeth (122) engages said stop whereupon said stop pivots said rack of
teeth (122) out of engagement with said gear (94).
14. A combination as claimed in claim 13 further comprising a series of actuating members
positioned along said path for alternately effecting movement of said mounting fixtures
between said contracted and expanded positions.
1. Lackierwagen (10), mit:
einer Basis (22), die mehrere Räder (28, 30) aufweist, die in einer unterstützenden
Beziehung angebracht sind,
einem Fallstift (32), der an der Basis (22) gleitend angebracht ist und mit einer
Fördereinrichtung (12) zum translatorischen Befördern wahlweise in Eingriff gelangen
kann;
gekennzeichnet durch
eine Mehrzahl von gleitend angebrachten Montagebefestigungseinrichtungen (26),
die zwischen einer eingefahrenen Position und einer ausgefahrenen Position beweglich
sind,
eine Betätigungsanordnung (24), die die Montagebefestigungseinrichtungen (26) an
der Basis (22) gleitend anbringt und folgendes umfaßt:
einen Längsträger (38), der an der Basis (22) angebracht ist,
eine Mehrzahl von Karren (52, 54, 56) in Gleiteingriff mit dem Längsträger (38),
wobei sich von jeder der Mehrzahl von Karren (52, 54, 56) jeweils eine der Montagebefestigungseinrichtungen
(26) erstreckt,
ein drehbar angebrachtes Ritzel (70),
eine erste Zahnstange (84), die an dem Längsträger (38) gleitend angebracht ist,
wobei das Ritzel (70) in einem kraftschlüssigen Eingriff mit der ersten Zahnstange
(84) ist, wobei die erste Zahnstange (84) mit einem äußeren der Karren (52, 54, 56)
verbunden ist, wobei die erste Zahnstange (84) mehrere Ansätze (90, 92) aufweist,
die von ihr abstehen und so positioniert sind, daß sie wahlweise mit inneren Karren
der Mehrzahl von Karren (52, 54, 56) in Eingriff gelangen, um die inneren nach außen
zu bewegen und die Karren (52, 54, 56) automatisch zu beabstanden, wobei eine Drehung
des Ritzels (70) die Bewegung der Montagebefestigungseinrichtungen (26) zwischen der
eingefahrenen und der ausgefahrenen Position bewirkt.
2. Lackierwagen (10) nach Anspruch 1, bei dem jeder der Karren (52, 54, 56) einen Stab
aufweist, der so positioniert ist, daß die Mehrzahl von Karren (52, 54, 56) von einem
benachbarten Karren beabstandet sind, wenn sich die Montagebefestigungseinrichtungen
(26) in die eingefahrene Position bewegt haben.
3. Lackierwagen (10) nach Anspruch 2, wobei der Lackierwagen (10) des weiteren eine zweite
Zahnstange (86) aufweist, die an dem Längsträger (38) gleitend angebracht ist, wobei
das Ritzel (70) in einem kraftschlüssigen Eingriff mit der zweiten Zahnstange (86)
ist, wobei die zweite Zahnstange (86) mit einem äußeren der Karren (52, 54, 56) verbunden
ist, wobei die zweite Zahnstange (86) mehrere Ansätze aufweist, die von ihr abstehen
und so positioniert sind, daß sie wahlweise mit inneren Karren der Mehrzahl von Karren
(52, 54, 56) in Eingriff gelangen, um die inneren nach außen zu bewegen und um die
Karren (52, 54, 56) automatisch zu beabstanden, wenn sie sich in die ausgefahrene
Position bewegt.
4. Lackierwagen (10) nach Anspruch 3, bei dem sich die zweite Zahnstange (86) in einer
Richtung erstreckt, die zu jener der ersten Zahnstange (84) entgegengesetzt ist.
5. Lackierwagen (10) nach Anspruch 4, wobei der Lackierwagen (10) eine feste Montagebefestigungseinrichtung
(26) aufweist, die zwischen Montagebefestigungseinrichtungen (26), die mit der ersten
Zahnstange (84) in funktionalem Eingriff sind, und Montagebefestigungseinrichtungen
(26), die mit der zweiten Zahnstange (86) in funktionalem Eingriff sind, positioniert
ist.
6. Lackierwagen nach Anspruch 5, bei dem die Betätigungsanordnung des weiteren eine sich
nach unten erstreckende Welle (78) aufweist, an der ein Zahnrad (84) angebracht ist,
wobei die Welle (78) mit dem Ritzel (70) in funktionalem Eingriff ist, wobei das Zahnrad
(94) so positioniert ist, daß es mit einer komplementären Zahnstange, die in Bezug
auf den Lackierwagen (10) fest ist, in Eingriff ist, so daß sich das Zahnrad (94)
dann, wenn der Lackierwagen (10) längs des Weges translatorisch verlagert wird, dreht
und eine Drehung des Ritzels (70) bewirkt.
7. Lackierwagen (10) nach Anspruch 6, bei dem die Betätigungsanordnung des weiteren eine
Verriegelungswelle (96) aufweist, die an der Vorderseite der Welle (78) gleitend angebracht
ist, wobei die Welle zwischen einer abgesenkten Position und einer angehobenen Position
beweglich ist, wobei die Verriegelungswelle (96) mit der Welle (78) in Eingriff ist
und deren Drehung verhindert, wenn sich die Verriegelungswelle (96) in ihrer abgesenkten
Position befindet, und die Verriegelungswelle (96) nicht mit der Welle (78) in Eingriff
ist, wenn sich die Verriegelungswelle (96) in ihrer angehobenen Position befindet.
8. Lackierwagen (10) nach Anspruch 7, wobei der Lackierwagen (10) ein Gehäuse (104) aufweist,
um funktionale Komponenten des Lackierwagens (10) vor einem Lackiersprühstrahl abzuschirmen.
9. Lackierwagen (10) nach Anspruch 8, bei dem der Längsträger (38) ein C-förmiger Abschnitt
ist, der einen lang gestreckten offenen Kanal aufweist, der obere und untere Führungen
definiert, und jeder der Karren eine Mehruahl von drehbar angebrachten Rädern (28,
30) aufweist, die mit den oberen und unteren Führungen in Eingriff sind.
10. Lackierwagen (10) nach Anspruch 9, wobei der Lackierwagen (10) mindestens drei Karren
aufweist und die inneren Karren einen inneren Karren und einen zwischen dem äußeren
Karren (52, 54, 56) und dem inneren Karren positionierten mittleren Karren umfassen,
wobei der innere Karren an einer Vorderkante einen Ansatz aufweist, wenn sich der
innere Karren in einer Ausfahrrichtung bewegt, wobei der Ansatz des inneren Karrens
mit einem der Mehrzahl von Ansätzen an einer entsprechenden Zahnstange in Eingriff
gelangt, und wobei der mittlere Karren an einer Hinterkante einen Ansatz aufweist,
wenn sich der mittlere Karren in einer Ausfahrrichtung bewegt, wobei der Ansatz des
mittleren Karrens mit einem weiteren der Mehrzahl von Ansätzen an einer entsprechenden
Zahnstange in Eingriff ist.
11. Lackierwagen (10) nach Anspruch 10, bei dem die Mehrzahl von Ansätzen an der Zahnstange
von dieser senkrecht vorstehen.
12. Lackierwagen (10) nach einem der voranstehenden Ansprüche in Kombination mit einem
Betätigungsmechanismus, der entlang des Weges angebracht ist, wobei die Betätigungsanordnung
mit dem Betätigungsmechanismus wahlweise in Eingriff gelangt, wenn sich der Lackierwagen
in Reaktion auf eine Drehung des Ritzels (10) längs des Weges bewegt, und die Bewegung
der Montagebefestigungseinrichtungen zwischen der eingefahrenen und der ausgefahrenen
Position bewirkt.
13. Kombination nach Anspruch 12, bei der der Betätigungsmechanismus (20) folgendes umfaßt:
ein Gehäuse, das einen nach oben verlaufenden Schlitz aufweist, um den Fallstift aufzunehmen,
wenn sich der Lakkierwagen (10) an dem Betätigungsmechanismus vorbeibewegt,
einen schwenkbar angebrachten Stab, der eine Rampe und eine erhöhte Oberfläche aufweist,
die eine Bewegung der Verriegelungswelle zwischen der abgesenkten und der angehobenen
Position bewirken, und
einen Anschlag,
wobei die Zahnstange (122) gleitend angebracht ist, um mit dem Stab zusammenzuwirken,
wobei die Zahnstange (122) zu einer Vorderkante des Betätigungsmechanismus (20) vorbelastet
ist, wobei der Stab so vorbelastet ist, daß er die Zahnstange (122) in einen Eingriff
mit dem Zahnrad (94) drängt, wobei die Zahnstange (122) relativ zu dem Stab gleiten
kann, wenn das Zahnrad (94) seine Drehung anhält, bis die Zahnstange (122) mit dem
Anschlag in Eingriff gelangt, woraufhin der Anschlag die Zahnstange (122) aus dem
Eingriff mit dem Zahnrad (94) schwenkt.
14. Kombination nach Anspruch 13, die des weiteren eine Reihe von Betätigungselementen
aufweist, die entlang dem Weg positioniert sind, um abwechselnd eine Bewegung der
Montagebefestigungseinrichtungen zwischen der eingefahrenen und der ausgefahrenen
Position zu bewirken.
1. Wagonnet de peinture (10), comprenant :
une base (22) ayant une pluralité de roues (28, 30) montées en relation de supportage
vis-à-vis de celle-ci ;
une tige descendante (32) montée en coulissement sur ladite base (22), ladite tige
descendante (32) pouvant être sélectivement engagée avec un convoyeur (12) pour déplacer
en translation ledit wagonnet de peinture (10) le long d'un trajet ;
caractérisé par :
une pluralité de ferrures de montage (26) montées en coulissement, lesdites ferrures
(26) étant mobiles entre une position contractée et une position en expansion,
un ensemble d'actionnement (24) pour monter en coulissement lesdites ferrures de montage
(26) sur ladite base (22), ledit ensemble d'actionnement (24) comprenant :
un support longitudinal (38) monté sur ladite base (22),
une pluralité de chariots (52, 54, 56) en engagement de coulissement avec ledit support
longitudinal (38), chacun des chariots de ladite pluralité (52, 54, 56) ayant l'une
desdites ferrures de montage (26) qui s'étend de lui-même, un pignon (70) monté en
rotation ; et
une première crémaillère (84) montée en coulissement avec ledit support longitudinal
(38), ledit pignon (70) étant en engagement d'entraînement avec ladite première crémaillère
(84), ladite première crémaillère (84) étant connectée à un chariot extérieur parmi
lesdits chariots (52, 54, 56), ladite première crémaillère (84) comportant une pluralité
de languettes (90, 92) s'étendant depuis elle-même et positionnées de manière à engager
sélectivement des chariots intérieurs parmi lesdits chariots (52, 54, 56) pour déplacer
lesdits chariots intérieurs vers l'extérieur et espacer automatiquement lesdits chariots
(52, 54, 56), dans lequel la rotation dudit pignon (70) effectue ledit mouvement desdites
ferrures de montage (26) entre la position contractée et la position en expansion.
2. Wagonnet de peinture (10) selon la revendication 1, dans lequel chacun desdits chariots
(52, 54, 56) comprend une barre positionnée pour écarter ladite pluralité de chariots
(52, 54, 56) vis-à-vis d'un chariot adjacent lors du déplacement desdites ferrures
de montage (26) à ladite position contractée.
3. Wagonnet de peinture (10) selon la revendication 2, dans lequel ledit wagonnet de
peinture (10) comprend encore une seconde crémaillère (86) montée en coulissement
avec ledit support longitudinal (38), ledit pignon (70) étant en engagement d'entraînement
avec ladite seconde crémaillère (86), ladite seconde crémaillère (86) étant connectée
à un chariot extérieur parmi lesdits chariots (52, 54, 56), ledit second chariot (86)
ayant une pluralité de languettes s'étendant depuis elle-même et positionnées de manière
à engager sélectivement des chariots intérieurs parmi lesdits chariots (52, 54, 56)
pour déplacer lesdits chariots intérieurs vers l'extérieur et espacer automatiquement
lesdits chariots (52, 54, 56) lorsqu'elle se déplace à la condition en expansion.
4. Wagonnet de peinture (10) selon la revendication 3, dans lequel ladite seconde crémaillère
(86) s'étend dans une direction opposée a ladite première crémaillère (84).
5. Wagonnet de peinture (10) selon la revendication 4, dans lequel ledit wagonnet de
peinture (10) comprend une ferrure de montage fixe (26) positionnée entre des ferrures
de montage (26) fonctionnellement en engagement avec ladite première crémaillère (84)
et des ferrures de montage (26) fonctionnellement en engagement avec ladite seconde
crémaillère (86).
6. Wagonnet de peinture selon la revendication 5, dans lequel ledit ensemble d'actionnement
comprend en outre une tige (78) s'étendant vers le bas et sur laquelle est monté un
engrenage (94), ladite tige (78) engageant fonctionnellement ledit pignon (70), ledit
engrenage (94) étant positionné de manière à engager une rangée de dents complémentaires
fixées par rapport audit wagonnet de peinture (10) de telle manière que lorsque ledit
wagonnet de peinture (10) se déplace en translation le long dudit trajet, ledit engrenage
(94) tourne en entraînant la rotation dudit pignon (70).
7. Wagonnet de peinture (10) selon la revendication 6, dans lequel ledit ensemble d'actionnement
comprend en outre une tige de verrouillage (96) montée en coulissement dans la partie
antérieure de ladite tige (78), ladite tige étant mobile entre une position basse
et une position haute, ladite tige de verrouillage (96) engageant ladite tige (78)
en empêchant sa rotation quand ladite tige de verrouillage (96) est dans ladite position
basse, et ladite tige de verrouillage (96) se dégageant de ladite tige (78) quand
ladite tige de verrouillage (96) est dans ladite position haute.
8. Wagonnet de peinture (10) selon la revendication 7, dans lequel ledit wagonnet de
peinture (10) comprend un boîtier (104) pour protéger les composants fonctionnels
dudit wagonnet de peinture (10) vis-à-vis des projections de peinture.
9. Wagonnet de peinture (10) selon la revendication 8, dans lequel ledit support longitudinal
(38) est un tronçon en forme de C ayant un profilé allongé ouvert définissant un guide
supérieur et un guide inférieur, et chacun desdits chariots comprend une pluralité
de roues (28, 30) montées en rotation et engageant ledit guide supérieur et ledit
guide inférieur.
10. Wagonnet de peinture (10) selon la revendication 9, dans lequel ledit wagonnet de
peinture (10) comprend au moins trois chariots et lesdits chariots intérieurs parmi
lesdits chariots comprennent un chariot intérieur et un chariot central positionné
entre ledit chariot extérieur parmi lesdits chariots (52, 54, 56) et ledit chariot
intérieur, ledit chariot intérieur ayant une languette sur un bord d'attaque quand
ledit chariot intérieur est en déplacement dans une direction en expansion, ladite
languette du chariot intérieur engageant l'une de ladite pluralité de languettes sur
une crémaillère respective, et ledit chariot central ayant une languette sur un bord
de queue quand ledit chariot central est en déplacement dans une direction en expansion,
ladite languette du chariot central engageant une autre de ladite pluralité de languettes
sur une crémaillère respective.
11. Wagonnet de peinture (10) selon la revendication 10, dans lequel ladite pluralité
de languettes sur ladite crémaillère se projettent de manière orthogonale depuis celle-ci.
12. Wagonnet de peinture (10) selon l'une quelconque des revendications précédentes, en
combinaison avec un mécanisme d'actionnement monté le long dudit trajet, ledit ensemble
d'actionnement engageant sélectivement ledit mécanisme d'actionnement tandis que ledit
wagonnet de peinture circule le long dudit trajet, en effectuant à titre de réponse
une rotation dudit pignon (70), et pour effectuer ledit mouvement desdites ferrures
de montage entre la position contractée et la position en expansion.
13. Combinaison selon la revendication 12, dans laquelle ledit mécanisme d'actionnement
(20) comprend :
un boîtier ayant une fente qui s'étend vers le haut pour recevoir ladite tige descendante
tandis que ledit wagonnet de peinture (10) circule devant ledit mécanisme d'actionnement,
une barre à montage pivotant présentant une rampe et une surface élevée qui effectuent
le mouvement de ladite tige de verrouillage entre ladite position basse et ladite
position haute,
un arrêt, et
ladite rangée de dents (122) étant montée en coulissement pour coopérer avec ladite
barre, ladite rangée de dents (122) étant sollicitée vers un bord d'attaque dudit
mécanisme d'actionnement (20), ladite barre étant sollicitée pour repousser ladite
rangée de dents (122) en engagement avec ledit engrenage (94), ladite rangée de dents
(122) étant capable de coulisser par rapport à ladite barre quand ledit engrenage
(94) s'arrête de tourner jusqu'à ce que ladite rangée de dents (122) engage ledit
arrêt, suite à quoi ledit arrêt fait pivoter ladite rangée de dents (122) hors de
l'engagement avec ledit engrenage (94).
14. Combinaison selon la revendication 13, comprenant en outre une série d'éléments d'actionnement
positionnés le long dudit trajet pour effectuer alternativement un mouvement desdites
ferrures de montage entre ladite position contractée et ladite position en expansion.